Correlation between tRNALys3 aminoacylation and its incorporation into HIV-1

During human immunodeficiency virus type 1 (HIV-1) assembly, tRNA(Lys) is selectively packaged into the virus, where tRNA(Lys3) serves as the primer for reverse transcription. Lysyl-tRNA synthetase is also selectively incorporated into HIV-1 and is therefore a strong candidate for being the signal by which viral proteins interact with tRNA(Lys) isoacceptors. Previously, mutations in the tRNA(Lys3) anticodon have been shown to strongly inhibit the charging of tRNA(Lys3) by lysyl-tRNA synthetase in vitro, and we show here that in vivo aminoacylation is also inhibited by anticodon changes. The order of decreasing in vivo aminoacylation for tRNA(Lys3) anticodon mutants is: wild-type SUU (where S=mcm(5)S(2)U) 100%) -->SGU(49%)-->CGU(40%)-->SGA (0%) and CGA (0%). We found that the ability of these tRNA(Lys3) anticodon variants to be aminoacylated in vivo is directly correlated with their ability to be packaged into HIV-1. These data showed that the anticodon is a major determinant for tRNA(Lys3) packaging and support the conclusion that its productive interaction with lysyl-tRNA synthetase is important for tRNA(Lys3) incorporation into HIV-1.